近期论文
查看导师新发文章
(温馨提示:请注意重名现象,建议点开原文通过作者单位确认)
S. Jia, Y. Li, Z. Xue, K. Chen, Z. Li,Q. Gong, and J. Chen, "Multichannel Single-Photon Emissions with on-DemandMomentums by Using Anisotropic Quantum Metasurfaces," Adv Mater, e2212244(2023).
Z. Xue, S. Jia, X.Li, Z. Li, Q. Gong, and J. Chen, "Scalar‐Superposition Metasurfaces withRobust Placement of Quantum Emitters for Tailoring Single‐Photon EmissionPolarization," Laser Photonics Rev 16,2200179 (2022).
H. Li, W. Li, andJ. Chen, "Perovskite micro-nano lasers and on-chip integration,"Chinese Sci Bull 67, 3928-3940 (2022).
S. Jia, Z. Li, andJ. Chen, "Brightening single-photon emitters by combining an ultrathin metallic antenna and a silicon quasi-BIC antenna," Chinese Phys B 31, 014209 (2022).
X. Cheng, C. Liu,G. Zhang, W. Liu, J. Wang, Y. Duan, J. Chen, H. Yang, and S. Wang, "Resolving plasmonic hotspots by label-free super-resolutionmicroscopy," Optics Letters 47, 210-213 (2022).
J. Chen and F. Gan,"Polarization-switchable plasmonic emitters based on laser-inducedbubbles," Opto-Electron Adv 5,200100-200100 (2022).
Y.-J. Qian, H. Liu,Q.-T. Cao, J. Kullig, K. Rong, C.-W. Qiu, J. Wiersig, Q. Gong, J. Chen, andY.-F. Xiao, "Regulated Photon Transport in Chaotic Microcavities byTailoring Phase Space," Physical Review Letters 127, 273902 (2021).
S. Jia, Z. Li, andJ. Chen, "High-sensitivity plasmonic sensor by narrowing Fano resonancesin a tilted metallic nano-groove array," Opt Express 29, 21358-21368 (2021).
D. Wu and J. Chen,"Broadening Bandwidths of Few-Layer Absorbers by Superimposing TwoHigh-Loss Resonators," Nanoscale Res Lett 16, 26 (2021).
H. Liu, H. Yu, L.Dai, Z. Li, and J. Chen, "Low-threshold and narrow-linewidth perovskitemicrolasers pumped by a localized waveguide source," Nanophotonics-Berlin 10, 3477-3485 (2021).
G. Li, S. Jia, H.Yang, and J. Chen, "Direction‐Controllable Plasmonic Color Scanning byUsing Laser‐Induced Bubbles," Advanced Functional Materials 31, 2008579 (2021).
J. Chen and K. Rong,"Nanophotonic devices and circuits based on colloidal quantum dots,"Materials Chemistry Frontiers 5,4502-4537 (2021).
G. R. Zhang, Y. Gu,Q. H. Gong, and J. J. Chen, "Symmetry-tailored patterns and polarizationsof single-photon emission," Nanophotonics-Berlin 9, 3557-3565 (2020).
G. Zhang, H. Liu, S.Jia, H. Li, Z. Li, Q. Gong, and J. Chen, "Enlarging the PurcellEnhancement by Inserting a Dielectric Film in Dielectric‐LoadedSurface‐Plasmon‐Polariton Waveguides," Advanced Quantum Technologies 3, 2000033 (2020).
M. Xue, M. Li, Y.Huang, R. Chen, Y. Li, J. Wang, Y. Xing, J. Chen, H. Yan, H. Xu, and J. Chen,"Observation and Ultrafast Dynamics of Inter-Sub-Band Transition in InAsTwinning Superlattice Nanowires," Adv Mater 32, e2004120 (2020).
R. Wang, Q.-H. Gong,and J.-J. Chen, "Extra-narrowband metallic filters with an ultrathinsingle-layer metallic grating," Chinese Phys B 29, 064215 (2020).
H. Liu, K. Rong, Z.Li, and J. Chen, "Experimental demonstration of nanophotonic devices andcircuits with colloidal quantum dot waveguides," Optics Express 28, 23091-23104 (2020).
Q. G. Hui Liu,Jianjun Chen, "胶质量子点激光器及片上集成," 中国激光 47, 0701004 (2020).
G. Zhang, S. Jia, Y.Gu, and J. Chen, "Brightening and Guiding Single‐Photon Emission byPlasmonic Waveguide–Slit Structures on a Metallic Substrate," LaserPhotonics Rev 13, 1900025 (2019).
K. Rong, H. Liu, K.Shi, and J. Chen, "Pattern-assisted stacking colloidal quantum dots forphotonic integrated circuits," Nanoscale 11, 13885-13893 (2019).
F. Gan, H. Li, andJ. Chen, "Tailoring the emission polarization with metasurface-basedemitters designed on a plasmonic ridge waveguide," Nanoscale 11, 7140-7148 (2019).
J. Chen,"Colloidal quantum dot lasers and hybrid integrations," Journal ofSemiconductors 40, 050401 (2019).
Y. Zhou, R. Chen, J.Wang, Y. Huang, M. Li, Y. Xing, J. Duan, J. Chen, J. D. Farrell, H. Q. Xu, andJ. Chen, "Tunable Low Loss 1D Surface Plasmons in InAs Nanowires,"Adv Mater 30, e1802551 (2018).
H. Yu, X. Cheng, Y.Wang, Y. Liu, K. Rong, Z. Li, Y. Wan, W. Gong, K. Watanabe, T. Taniguchi, S.Wang, J. Chen, Y. Ye, and L. Dai, "Waterproof Perovskite-Hexagonal BoronNitride Hybrid Nanolasers with Low Lasing Thresholds and High OperatingTemperature," ACS Photonics 5,4520-4528 (2018).
Y. Wang, Y. Guo, H.Liao, Z. Li, F. Gan, C. Sun, and J. Chen, "Multichannel and Binary-PhaseAll-Optical Control with On-Chip Integrated Subwavelength PlasmonicWaveguides," ACS Photonics 5,1575-1582 (2018).
K. Rong, F. Gan, K.Shi, S. Chu, and J. Chen, "Configurable Integration of On-Chip Quantum DotLasers and Subwavelength Plasmonic Waveguides," Adv Mater 30, 1706546 (2018).
C. Peng, J. Li, H.Liao, Z. Li, C. Sun, J. Chen, and Q. Gong, "Universal Linear-Optical LogicGate with Maximal Intensity Contrast Ratios," ACS Photonics 5, 1137-1143 (2018).
F. Gan, C. Sun, H.Li, Q. Gong, and J. Chen, "On-chip polarization splitter based on amultimode plasmonic waveguide," Photonics Research 6, 47-53 (2018).
J. Chen, F. Gan, Y.Wang, and G. Li, "Plasmonic Sensing and Modulation Based on Fano Resonances,"Advanced Optical Materials 6,1701152 (2018).
Y. J. Wang, C. W.Sun, F. Y. Gan, H. Y. Li, Q. H. Gong, and J. J. Chen, "Sharp phasevariations from the plasmon mode causing the Rabi-analogue splitting,"Nanophotonics-Berlin 6, 1101-1107(2017).
Y. Wang, C. Sun, H.Li, Q. Gong, and J. Chen, "Self-reference plasmonic sensors based ondouble Fano resonances," Nanoscale 9,11085-11092 (2017).
Y. Wang, C. Sun, Q.Gong, and J. Chen, "Coupled-resonator-induced plasmonic bandgaps,"Optics Letters 42, 4235 (2017).
C. Sun, K. Rong, F.Gan, S. Chu, Q. Gong, and J. Chen, "An on-chip polarization splitter basedon the radiation loss in the bending hybrid plasmonic waveguidestructure," Applied Physics Letters 111,101105 (2017).
C. Sun, H. Li, Q. Gong,and J. Chen, "Plasmonic Polarization-Rotating Emitters with MetallicNanogroove Antennas," Advanced Optical Materials 5, 1700510 (2017).
K. Rong, C. Sun, K.Shi, Q. Gong, and J. Chen, "Room-Temperature Planar Lasers Based onWater-Dripping Microplates of Colloidal Quantum Dots," ACS Photonics 4, 1776-1784 (2017).
F. Y. Gan, Y. J.Wang, C. W. Sun, G. R. Zhang, H. Y. Li, J. J. Chen, and Q. H. Gong,"Widely Tuning Surface Plasmon Polaritons with Laser-InducedBubbles," Advanced Optical Materials 5,1600545 (2017).
F. Y. Gan, C. W.Sun, Y. J. Wang, H. Y. Li, Q. H. Gong, and J. J. Chen, "Multimode MetallicDouble-Strip Waveguides for Polarization Manipulation," Adv MaterTechnol-Us 2, 1600248 (2017).
W. Yao, C. Sun, Q.Gong, and J. Chen, "Controlling surface-plasmon-polaritons launching withhot spot cylindrical waves in a metallic slit structure," Nanotechnology 27, 385204 (2016).
B. Wang, F. L. Dong,Q. T. Li, D. Yang, C. W. Sun, J. J. Chen, Z. W. Song, L. H. Xu, W. G. Chu, Y.F. Xiao, Q. H. Gong, and Y. Li, "Visible-Frequency Dielectric Metasurfacesfor Multiwavelength Achromatic and Highly Dispersive Holograms," Nano Lett16, 5235-5240 (2016).
C. Sun, K. Rong, Y.Wang, H. Li, Q. Gong, and J. Chen, "Plasmonic ridge waveguides withdeep-subwavelength outside-field confinements," Nanotechnology 27, 065501 (2016).
C. Sun, H. Li, Q.Gong, and J. Chen, "Ultra-small and broadband polarization splitters basedon double-slit interference," Applied Physics Letters 108, 101106 (2016).
X. Y. Song, Z.Zhang, H. Liao, Z. Li, C. Sun, J. Chen, and Q. Gong, "Efficientunidirectional launching of surface plasmons by a cascade asymmetric-groovestructure," Nanoscale 8,6777-6782 (2016).
Q. T. Li, F. L.Dong, B. Wang, F. Y. Gan, J. J. Chen, Z. W. Song, L. X. Xu, W. G. Chu, Y. F.Xiao, Q. H. Gong, and Y. Li, "Polarization-independent and high-efficiencydielectric metasurfaces for visible light," Optics Express 24, 16309-16319 (2016).
J. Chen, K. He, C.Sun, Y. Wang, H. Li, and Q. Gong, "Tuning Fano resonances with anano-chamber of air," Optics Letters 41,2145-2148 (2016).
Y. Bao, H. Liang, H.Liao, Z. Li, C. Sun, J. Chen, and Q. Gong, "Efficient UnidirectionalLaunching of Surface Plasmons by Multi-Groove Structures," Plasmonics, 1-6(2016).
W. J. Yao, S. Liu,H. M. Liao, Z. Li, C. W. Sun, J. J. Chen, and Q. H. Gong, "EfficientDirectional Excitation of Surface Plasmons by a Single-ElementNanoantenna," Nano Lett 15,3115-3121 (2015).
Y. Wang, J. Chen, C.Sun, K. Rong, H. Li, and Q. Gong, "An ultrahigh-contrast and broadbandon-chip refractive index sensor based on a surface-plasmon-polaritoninterferometer," The Analyst 140,7263-7270 (2015).
H. Wang, X. Chen, S.Wei, F. Yang, H. Liao, Z. Li, J. Chen, and Q. Gong, "Quasi-cylindricalwaves on a dielectric-film-coated metal surface," JOSA B 32, 1514-1523 (2015).
C. Sun, J. Chen, W.Yao, H. Li, and Q. Gong, "Manipulating surface-plasmon-polariton launchingwith quasi-cylindrical waves," Scientific reports 5, 11331 (2015).
C. Sun, J. Chen, H.Li, and Q. Gong, "Ultra-small wavelength splitters in a subwavelengthplasmonic waveguide," Optics Letters 40,685-688 (2015).
P. Li, J. Song, A.Pan, J. Chen, S. Wang, J. Shen, P. Wang, J. Zhan, H. Qian, and W. Tang,"Surface plasmon polaritons suppress photoresponse of colloidal CdSnanorods in nanogap," Applied Physics Express 8, 055001 (2015).
Z. Chen, J. Chen, L.Yu, and J. Xiao, "Sharp Trapped Resonances by Exciting the Anti-symmetricWaveguide Mode in a Metal-Insulator-Metal Resonator," Plasmonics 10, 131-137 (2015).
J. J. Chen, C. W.Sun, K. X. Rong, H. Y. Li, and Q. H. Gong, "Polarization-free directionalcoupling of surface plasmon polaritons," Laser Photonics Rev 9, 419-426 (2015).
J. Chen, C. Sun, H.Li, and Q. Gong, "Ultra-small on-chip polarization splitters in hybridplasmonic waveguides," in Frontiersin Optics, (Optical Society of America, 2015), FW5C. 1.
Y. Zhang, H. Wang,H. Liao, Z. Li, C. Sun, J. Chen, and Q. Gong, "Unidirectional launching ofsurface plasmons at the subwavelength scale," Applied Physics Letters 105, 231101 (2014).
J. J. Chen, C. W.Sun, H. Y. Li, and Q. H. Gong, "Experimental demonstration of an on-chippolarization splitter in a submicron asymmetric dielectric-coated metalslit," Applied Physics Letters 104,231111 (2014).
J. J. Chen, C. W.Sun, and X. Y. Hu, "Nanoscale all-optical devices based on surface plasmonpolaritons," Chinese Sci Bull 59,2661-2665 (2014).
J. Chen, C. Sun, H.Li, and Q. Gong, "Ultra-broadband unidirectional launching of surfaceplasmon polaritons by a double-slit structure beyond the diffractionlimit," Nanoscale 6,13487-13493 (2014).
J. Chen, C. Sun, andQ. Gong, "Fano resonances in a single defect nanocavity coupled with aplasmonic waveguide," Optics Letters 39,52-55 (2014).
J. Chen, Z. Li, andQ. Gong, "All-optical Control of surface plasmon polaritons based on metalslit structures," Chinese Journal of Quantum Electronics 31, 428-432 (2014).
X. Zhang, Z. Li, J.J. Chen, S. Yue, and Q. H. Gong, "A dichroic surface-plasmon-polaritonsplitter based on an asymmetric T-shape nanoslit," Optics Express 21, 14548-14554 (2013).
X. Zhang, Z. Li, J.J. Chen, H. M. Liao, S. Yue, and Q. H. Gong, "A submicronsurface-plasmon-polariton dichroic splitter based on a composite cavitystructure," Applied Physics Letters 102,091110 (2013).
G. Wu, J. J. Chen,R. Zhang, J. H. Xiao, and Q. H. Gong, "Highly efficient nanofocusing in asingle step-like microslit," Optics Letters 38, 3776-3779 (2013).
H. Liao, Z. Li, J.Chen, X. Zhang, S. Yue, and Q. Gong, "A submicron broadband surface-plasmon-polaritonunidirectional coupler," Scientific reports 3, 1918 (2013).
J. J. Chen, Z. Li,R. Zhang, Z. L. Deng, J. H. Xiao, and Q. H. Gong, "Response Line-Shapes inCompact Coupled Plasmonic Resonator Systems," Plasmonics 8, 1129-1134 (2013).
J. J. Chen, Z. Li,J. H. Xiao, and Q. H. Gong, "Efficient All-Optical Molecule-PlasmonModulation Based on T-shape Single Slit," Plasmonics 8, 233-237 (2013).
J. Chen, Z. Li, Y.Zou, Z. Deng, J. Xiao, and Q. Gong, "Coupled-Resonator-Induced Fano Resonancesfor Plasmonic Sensing with Ultra-High Figure of Merits," Plasmonics 8, 1627-1631 (2013).
J. Chen, Z. Li, X.Zhang, J. Xiao, and Q. Gong, "Submicron bidirectional all-opticalplasmonic switches," Scientific reports 3, 1451 (2013).
S. Yue, Z. Li, J. J.Chen, and Q. H. Gong, "Deep subwavelength confinement and giantenhancement of light field by a plasmonic lens integrated with ametal-insulator-metal vertical nanocavity," Optics Express 20, 19060-19066 (2012).
Z. H. You, D. Y.Jiang, J. Stamnes, J. J. Chen, and J. H. Xiao, "Characteristics andapplications of two-dimensional light scattering by cylindrical tubes based onray tracing," Appl Optics 51,8341-8349 (2012).
C. Wang, J. J. Chen,W. H. Tang, and J. H. Xiao, "Ultracompact Refractive Index Sensor Based onSurface-Plasmon-Polariton Interference," Chinese Phys Lett 29, 127304 (2012).
J. J. Chen, C. Wang,R. Zhang, and J. H. Xiao, "Multiple plasmon-induced transparencies incoupled-resonator systems," Optics Letters 37, 5133-5135 (2012).
J. J. Chen, C. Wang,G. W. Lu, W. Q. Li, J. H. Xiao, and Q. H. Gong, "Highly efficientnanofocusing based on a T-shape micro-slit surrounded with multi-slits,"Optics Express 20, 17734-17740(2012).
J. J. Chen, Z. Li,S. Yue, J. H. Xiao, and Q. H. Gong, "Plasmon-Induced Transparency inAsymmetric T-Shape Single Slit," Nano Lett 12, 2494-2498 (2012).
J. J. Chen, Z. Li,M. Lei, X. L. Fu, J. H. Xiao, and Q. H. Gong, "Plasmonic Y-splitters ofHigh Wavelength Resolution Based on Strongly Coupled-Resonator Effects,"Plasmonics 7, 441-445 (2012).
S. Yue, Z. Li, J. J.Chen, and Q. H. Gong, "Ultrasmall and ultrafast all-optical modulationbased on a plasmonic lens," Applied Physics Letters 98, 161108 (2011).
S. Yue, Z. Li, J. J.Chen, and Q. H. Gong, "Dielectric waveguide with deep subwavelength modeconfinement based on coupled nanowires," Acta Phys Sin-Ch Ed 60, 094214 (2011).
Z. Li, J. J. Chen,S. Yue, and Q. H. Gong, "Ultracompact Surface Plasmon PolaritonUnidirectional Generator Based on Asymmetric Single-Nanoslit," Conf LaserElectr (2011).
J. J. Chen, Z. Li,S. Yue, and Q. H. Gong, "Highly Efficient All-Optical Control ofSurface-Plasmon-Polariton Generation Based on a Compact Asymmetric SingleSlit," Nano Lett 11, 2933-2937(2011).
J. J. Chen, Z. Li,S. Yue, and Q. H. Gong, "Ultracompact surface-plasmon-polariton splitterbased on modulations of quasicylindrical waves to the total field," J ApplPhys 109, 073102 (2011).
J. J. Chen, Z. Li,J. Li, and Q. H. Gong, "Compact and high-resolution plasmonic wavelengthdemultiplexers based on Fano interference," Optics Express 19, 9976-9985 (2011).
J. J. Chen, Z. Li,M. Lei, S. Yue, J. H. Xiao, and Q. H. Gong, "Broadband unidirectionalgeneration of surface plasmon polaritons with dielectric-film-coated asymmetricsingle-slit," Optics Express 19,26463-26469 (2011).
S. Yue, Z. Li, J. J.Chen, and Q. H. Gong, "Bending Loss Calculation of a Dielectric-LoadedSurface Plasmon Polariton Waveguide Structure," Chinese Phys Lett 27, 027303 (2010).
Z. Li, S. Yue, J. J.Chen, and Q. H. Gong, "Ultrafast Hot Electron Relaxation in a MetalNanostructure Detected by Femtosecond-SNOM," 2010 Conference on Lasers andElectro-Optics (Cleo) and Quantum Electronics and Laser Science Conference(Qels) (2010).
Z. Li, S. Yue, J.Chen, and Q. Gong, "Ultrafast spatiotemporal relaxation dynamics ofexcited electrons in a metal nanostructure detected by femtosecond-SNOM,"Optics Express 18, 14232-14237(2010).
J. J. Chen, Z. Li,S. Yue, and Q. H. Gong, "Efficient unidirectional generation of surfaceplasmon polaritons with asymmetric single-nanoslit," Applied PhysicsLetters 97, 041113 (2010).
X. F. Wu, J. S.Zhang, J. J. Chen, C. L. Zhao, and Q. H. Gong, "Refractive index sensorbased on surface-plasmon interference," Optics Letters 34, 392-394 (2009).
J. J. Chen, Z. Li,S. Yue, and Q. H. Gong, "Hybrid long-range surface plasmon-polariton modeswith tight field confinement guided by asymmetrical waveguides," OpticsExpress 17, 23603-23609 (2009).
J. J. Chen, Z. Li,and Q. H. Gong, "Long-range surface plasmon polaritons with subwavelengthmode expansion in an asymmetrical system," Chinese Phys B 18, 3535-3541 (2009).
J. J. Chen, Z. Li,J. S. Zhang, and Q. H. Gong, "Surface plasmon polariton modulator based onelectro-optic polymer," Acta Phys Sin-Ch Ed 57, 5893-5898 (2008).